VCE Systems Engineering: Administrative information for School … · 2020-05-12 · Revised VCE Systems Engineering: Administrative information for School-based Assessment in 2020
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1. Investigation of a problem/situation/ opportunity/need and develop a design brief for an integrated controlled system including evaluation criteria
identifies problem/situation/ opportunity/need
develops design brief for an integrated controlled system
responds to design brief
develops evaluation criteria
references factors that influence the creation and use of system
Insu
ffic
ien
t evid
ence
Identifies a problem/ situation/opportunity/need and develops a design brief for an integrated controlled system, identifies its context, constraints and/or considerations
Identifies a problem/ situation/opportunity/need and develops a design brief for an integrated controlled system, identifies its context, constraints and considerations
Identifies a problem/ situation/opportunity/need and develops a design brief for an integrated controlled system, outlines its context, constraints and considerations
Identifies a problem /situation/opportunity/need and develops a design brief for an integrated controlled system, describes its context, constraints and considerations
Identifies a problem/ situation/opportunity/need and develops a design brief for an integrated controlled system, explains its context, constraints and considerations
Develops evaluation criteria and identifies factors that influence the creation and use of the system
Develops evaluation criteria and outlines how the evaluation criteria relate to the requirements of the design brief and factors that influence the creation and use of the system
Develops evaluation criteria and describes how the evaluation criteria relate to the requirements of the design brief and factors that influence the creation and use of the system
Develops evaluation criteria and explains how the evaluation criteria relate to the requirements of the design brief and factors that influence the creation and use of the system
Develops evaluation criteria and justifies how the evaluation criteria relate to the requirements of the design brief and factors that influence the creation and use of the system
2. Researching, devising, designing and modelling design options
conducts research including modeling of components, subsystems, systems
generates design ideas
produces feasible design options
selects preferred option
Insu
ffic
ien
t evid
ence
Undertakes research, including modeling, of components, subsystems and/or processes to generate design ideas using diagrams, to identify feasible design options and the preferred option
Undertakes research, including modeling, of components, subsystems and processes to generate design ideas using diagrams and/or technical data to identify feasible options and the preferred option
Undertakes research, including modeling, of components, subsystems and processes to generate design ideas using diagrams and technical data to describe feasible options and the preferred option
Undertakes research, including modeling, of components, subsystems and processes to generate design ideas using diagrams and technical data to explain feasible options and the preferred option
Undertakes research, including modeling, of components, subsystems and processes to generate design ideas, using diagrams and technical data to justify feasible options and the preferred option
devises workplan (timeline, sequence of steps and associated equipment, components, materials, and processes)
references materials, components and processes
describes safety and risk assessment for materials, components and processes
Insuffic
ient evid
ence
Develops a work plan by identifying steps, timeline, materials, components, processes and tools for the creation of the preferred option, as well as identifying safety and risk assessment.
Develops a work plan by identifying a sequence of steps and timeline, materials, components, processes and tools for the creation of the preferred option, and describing safety and risk assessment.
Develops a work plan by identifying a sequence of steps and timeline, and describes how materials, components, processes and tools will be used for the creation of the preferred option as well as describing safety and risk assessment.
Develops a work plan by identifying a sequence of steps and timeline, and explaining how materials, components, processes and tools will be used for the creation of the preferred option, as well as describing safety and risk assessment.
Develops a work plan by identifying a sequence of steps and timeline, and analysing how materials, components, processes and tools will be used for the creation of the preferred option, as well as describing safety and risk assessment.
4. Use of tools, equipment and machines to make an integrated controlled aspect of the mechanical and electrotechnological the system
implements an integrated controlled aspect of the mechanical and electrotechnological system’s work plan
complies with OH&S requirements
Insu
ffici
ent e
vide
nce
Follows the relevant steps and timelines in the work plan with support using production processes, and tools, equipment, components and materials compliant with OH&S requirements to produce an integrated controlled aspect of the mechanical and electrotechnological the preferred option.
Implements the relevant steps of a work plan with support using production processes, and tools, equipment, components and materials compliant with OH&S requirements to produce an integrated controlled aspect of the mechanical and electrotechnological the preferred option.
Implements the relevant steps of a work plan with support using production processes, and tools, equipment, components and materials with technical skills, compliant with OH&S requirements to produce an integrated controlled aspect of the mechanical and electrotechnological the preferred option.
Implements the relevant steps of a work plan independently using production processes, and tools, equipment, components and materials with technical skills, compliant with OH&S requirements to produce an integrated controlled aspect of the mechanical and electrotechnological the preferred option.
Implements the relevant steps of a work plan independently using production processes, and tools, equipment, components and materials with precision and technical skills, compliant with OH&S requirements to produce an integrated controlled aspect of the mechanical and electrotechnological the preferred option
5. Realisation of an aspect of the integrated controlled system
produces an aspect of the integrated, controlled system
Insu
ffic
ien
t evid
ence
With support, produces an aspect of an integrated, controlled system that is linked to relevant aspects of the design brief
With support, produces an aspect of an integrated, controlled system that addresses the relevant context, considerations and/or constraints of the design brief
With support, produces an operational, aspect of an integrated, controlled system that addresses the relevant context, considerations and constraints of the design brief as described in the work plan with documented modifications
Independently produces an operational, aspect of an integrated, controlled system that addresses the relevant context, considerations and constraints of the design brief as described in the work plan and/or with documented modifications
Independently produces an operational aspect of an integrated, controlled system that addresses the relevant context, considerations and constraints of the design brief and as described in the work plan with documented modifications.
7. Project management to realise an integrated controlled aspect of the preferred option
manages production of an integrated controlled aspect of the system
documents decision-making, modifications and justifications
Insu
ffic
ien
t evid
ence
With support, demonstrates skills in time management and/or organisation to produce an integrated controlled aspect of the preferred option, identifies evidence of progress and risk assessments for production work and diagnostic testing and identifies modifications if required
With support, demonstrates skills in time management and/or organisation to produce an integrated controlled aspect of the preferred option, outlines evidence of progress and risk assessments for production work and diagnostic testing, and identifies decision-making and modifications if required
With support demonstrates skills in time management and organisation to produce an integrated controlled aspect of the preferred option, outlines evidence of progress, risk assessments for production work and diagnostic testing and describes decision-making and modifications if required
Independently demonstrates skills in time management and organisation to produce an integrated controlled aspect of the preferred option, describes evidence of progress and risk assessments for production work and diagnostic testing and explains decision-making and modifications if required
Independently demonstrates skills in time management and organisation to produce an integrated controlled aspect of the preferred option independently, describes evidence of progress and risk assessments for production work and diagnostic testing and justifies decision-making and modifications if required
8. Evaluating the use of the systems engineering process, including finished, integrated controlled system
evaluates design
evaluates production (materials, tools, processes)
tests and evaluates an integrated controlled aspect of the system
Insuffic
ient evid
ence
Uses the systems engineering process including diagnostic testing and pre-determined evaluation criteria to identify performance of the integrated controlled aspect of the system and/or recommendations to the design, production and performance of the aspect of the system
Uses the systems engineering process including diagnostic testing and the pre-determined evaluation criteria to describe the performance of the integrated controlled aspect of the system and identify recommendations to the design and production of the aspect of the system
Uses the systems engineering process including diagnostic testing and the pre-determined evaluation criteria to explain the performance of the integrated controlled aspect of the system and identify recommendations to the design and production of the aspect of the system
Uses the systems engineering process including diagnostic testing and the pre-determined criteria to evaluate the performance of the integrated controlled aspect of the system and describe recommendations to the design and production of the aspect of the system
Uses the systems engineering process including diagnostic testing and the pre-determined criteria to evaluate the performance of the integrated controlled aspect of the system and explain recommendations to the design and production of the aspect of the system
Authentication of VCE Systems Engineering School-assessed Task (SAT) Teachers are reminded of the need to comply with the authentication requirements specified in the VCE and
VCAL Administrative Handbook 2020. This is important to ensure that ‘undue assistance [is] not … provided
to students while undertaking assessment tasks’.
Teachers must be aware of the following requirements for the authentication of VCE Systems Engineering
SATs:
1. The Systems Engineering integrated controlled aspect of the system created for the SAT is based on
Unit 3, Outcome 1 and Unit 4, Outcome 1.
2. Teachers are required to fill out the Authentication record form and provide the student with feedback
on their progress at each observation.
3. Students are encouraged to research all aspects of their proposed production in detail, but the work
undertaken for their record of investigation, design, planning and production must be their own.
Teachers are reminded that it is not appropriate to provide ‘detailed advice on, corrections to, or actual
reworking of students’ drafts or productions or folios’.
4. The SAT is not a group project and students must work on their own design and production work for
the entire SAT.
5. During the planning stage, teachers should make clear to students that the written documentation and
visual representations, required as part of the student’s record of investigation, design, planning and
production, form the basis for authentication of their work. For example, students are required to
submit sketches, drawings and diagrams to show annotated references to proposed specifications,
processes, materials or components and the relevance to the design brief. All notes should be dated
and clearly documented to enable teachers to authenticate students’ work.
6. The annotated design options are part of the student’s record of investigation, design, planning and
production, and are a key reference for assessment of the integrated controlled aspect of the system,
which should be maintained and updated throughout the production process. The student’s record of
investigation, design, planning and production, together with the Authentication record form, informs
the teacher about how the student refers to the proposed specifications, processes, materials or
components and their relevance to the design brief.
7. Teachers must sight and monitor the development and documentation of the student’s work on a
regular basis in order to record each student’s progress as part of the authentication process. The
Authentication record form for the Systems Engineering SAT sheet must be completed by the class
teacher to monitor the student’s work-in-progress for authentication purposes. The student must
declare that all resource materials and assistance used have been acknowledged and that all
Authentication record form: VCE Systems Engineering School-assessed Task 2020 Revised
This form must be completed by the class teacher. It provides a record of the monitoring of the student’s work in progress for authentication purposes. This form is to be retained by the school and filed. It
may be collected by the VCAA as part of its School-based Assessment Audit.
This assessment sheet will assist teachers to determine their score for each student. Teachers need to make judgments on the student's performance for each criterion. Teachers will be required to choose one number from 0–10 to indicate how the student performed on each criterion with comments, as appropriate. Teachers then add the subtotals to determine the total score.
2020
Performance on criteria: teacher’s commentsYou may wish to comment on aspects of the student's work that led to your assessment.
student number
assessing school number
VCE Systems Engineering: Administrative information for School-based Assessment in 2020
page 20
student name
For use
in 2020 only
Victorian Certificate of EducationSystems Engineering Assessment Sheet
School�assessed Task
TOTAL SCORE
SUBTOTALSIf a student does not submit the School�assessed Task at all, N/A should be entered in the total score box.
Criteria for the award of gradesNot Shown
(0)Very Low
(1–2)Low (3–4)
Med (5–6)
High (7–8)
Very High (9–10)
The extent to which the record of investigation design, planning and production demonstrate skill in:
1 investigation of a problem/situation/opportunity/need, and develop a design brief for an integrated controlled system including evaluation criteria
2 researching, devising, designing and modelling design options 3 planning the creation of the system The extent to which the production work and accompanying documentation, including the record of progress and modifications, demonstrate skill in:
4 use of tools, equipment and machines to make the an integrated controlled aspect of the mechanical and electrotechnological system
5 realisation of an aspect of the integrated controlled system The extent to which the diagnostic testing, report and performance data demonstrate:
6 use of diagnostic test procedures and interpreting test data The extent to which the production folio, and teacher observation of student progress throughout the Systems Engineering Process, demonstrate skill in:
7 project management to realise an integrated controlled aspect of the the preferred option The extent to which the evaluation report demonstrates skill in:
8 evaluating the use of the Systems Engineering Process including finished, integrated controlled system.